JP2017109149A - Agitation blade fixing structure and agitation blade fixing method - Google Patents

Agitation blade fixing structure and agitation blade fixing method Download PDF

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JP2017109149A
JP2017109149A JP2015243933A JP2015243933A JP2017109149A JP 2017109149 A JP2017109149 A JP 2017109149A JP 2015243933 A JP2015243933 A JP 2015243933A JP 2015243933 A JP2015243933 A JP 2015243933A JP 2017109149 A JP2017109149 A JP 2017109149A
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shaft
stirring blade
fixing portion
shaft fixing
rotating shaft
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JP6380362B2 (en
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勝輝 佐藤
Katsuaki Sato
勝輝 佐藤
剛正 小川
Takemasa Ogawa
剛正 小川
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Sumitomo Metal Mining Co Ltd
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Abstract

PROBLEM TO BE SOLVED: To easily and securely fix an agitation blade at a desired position of a rotary shaft.SOLUTION: An agitation blade fixing structure 100 for mounting an agitation blade 10 on a rotary shaft 2 comprises: a first shaft fixing part 110, where a groove part 111 fittable with a projection part 13 provided on an outer peripheral surface 11a of a boss part 11 of the agitation blade is formed on the apex side to fix the agitation blade while being supported by fitting the projection part with the groove part; and a second shaft fixing part 120, where a shaft hole part having an inner diameter nearly the same as the outer diameter of the rotary shaft is configured to be fittable with the rotary shaft to fix the agitation blade on the rotary shaft via the first shaft fixing part while supporting the first shaft fixing part from the bottom face side. The inner peripheral surface side of the first shaft fixing part is provided with an inner wall inclined plane, the outer peripheral surface side of the second shaft fixing part is provided with an outer wall inclined plane 120c coming in contact with the inner wall inclined plane, and the lower end side of the outer wall inclined plane is provided with a flange part 121, so that the bottom surface 110b of the first shaft fixing part is joined with the flange part via coupling members 122, 123 capable of adjusting the distance between the two.SELECTED DRAWING: Figure 2

Description

本発明は、溶融撹拌槽に備わる撹拌翼を回転軸に固定するための撹拌翼固定構造、及び撹拌翼固定方法に関する。   The present invention relates to a stirring blade fixing structure for fixing a stirring blade provided in a melt stirring tank to a rotating shaft, and a stirring blade fixing method.

非鉄金属における湿式精錬法では、乾式製錬から産出されたニッケルマット及び低品位ラテライト鉱石から硫酸浸出によって産出されたニッケル・コバルト混合硫化物(以下MSという場合がある。)を原料とし、原料中に含有するニッケル、コバルト、銅等の金属の大部分を塩素浸出法によって溶液とし、最終的に電解採取法によって電気ニッケルが製造されている。   In the hydrometallurgical method for non-ferrous metals, nickel matte produced from dry smelting and nickel / cobalt mixed sulfide produced by sulfuric acid leaching from low-grade laterite ore (hereinafter sometimes referred to as MS) are used as raw materials. Most of the metals such as nickel, cobalt, copper, etc. contained in the solution are made into a solution by the chlorine leaching method, and finally electric nickel is produced by the electrowinning method.

かかる製法における原料のMSには、硫黄が多く含まれているので、湿式精錬法における塩素浸出工程の残渣として硫黄が分離、回収されている。残渣として得られた硫黄は、溶融撹拌槽内で140℃程度に昇温されてから、撹拌されることにより、温度や粘度などのバラツキが少ない一様な溶融状態で一時的に貯留される。その後、製品形状であるタブレット状に成型するために、溶融撹拌槽が備わる成形装置に移送される。   Since the raw material MS in such a production method contains a large amount of sulfur, sulfur is separated and recovered as a residue of the chlorine leaching step in the wet refining method. Sulfur obtained as a residue is temporarily stored in a uniform molten state with little variation in temperature, viscosity, and the like by being stirred after being heated to about 140 ° C. in the melt stirring tank. Then, in order to shape | mold into the tablet shape which is a product shape, it is transferred to the shaping | molding apparatus provided with a melting stirring tank.

残渣は、生産量や原料事情等により、その見掛け比重が変動することがあり、当該残渣の比重が小さい場合には、溶融撹拌槽内の液面に浮遊して、溶融層に取り込まれ難くなる。このため、溶融撹拌槽内の硫黄が一様な溶融状態になり難い状態か、一様な溶融状態になるまでに長い時間を要する状態となるため、溶融撹拌槽の操業効率が低下する。このような場合、試験装置では、撹拌翼の設置高さを溶融層の浅い位置に変更することによって、撹拌翼を溶融層表面に近づけて、溶融層表面を波立たせて浮遊している残渣を取り込み易くするようにしている。   The apparent specific gravity of the residue may fluctuate depending on the production amount and raw material circumstances. When the specific gravity of the residue is small, the residue floats on the liquid surface in the melting and stirring tank and is not easily taken into the molten layer. . For this reason, since it will be in the state in which it is difficult for the sulfur in a melting stirring tank to be in a uniform molten state, or a long time is required until it becomes a uniform molten state, the operation efficiency of a melting stirring tank falls. In such a case, in the test apparatus, by changing the installation height of the stirring blade to a shallow position of the molten layer, the stirring blade is brought closer to the surface of the molten layer, and the residue that floats by making the molten layer surface undulate is removed. It is designed to make it easier to capture.

また、操業設備としての溶融撹拌槽で使用される撹拌翼は、操業中の脱落を回避するために、設計上の取付け位置において回転軸とボスにキーを嵌合するためのキー溝を施して撹拌翼を固定するか、または溶接等の方法により回転軸に動かせない状態で撹拌翼を固定することが一般的に行われている。撹拌翼を所定の位置に取り付けて固定する際に、取付け位置を可変とする技術として、例えば、特許文献1には、撹拌翼を固定する範囲の回転軸にキー溝が設けられ、撹拌翼のボス部にキー溝と対向させてテーパーキーを嵌合するためのキー溝が設けられた撹拌翼の取付け構造が開示されている。   In addition, the stirring blade used in the melt stirring tank as the operation equipment is provided with a key groove for fitting the key to the rotating shaft and the boss at the designed mounting position in order to avoid dropping during operation. In general, the stirring blade is fixed in a state where the stirring blade is fixed or cannot be moved to the rotating shaft by a method such as welding. As a technique for making the mounting position variable when attaching and fixing the stirring blade at a predetermined position, for example, in Patent Document 1, a key groove is provided on a rotating shaft in a range in which the stirring blade is fixed, and An agitation blade mounting structure in which a key groove for fitting a taper key to a boss portion so as to face the key groove is provided is disclosed.

実開平05−044227号公報Japanese Utility Model Publication No. 05-044227

しかしながら、溶融した硫黄は、特に腐食性が強いため、回転軸には、ライニングを施した鋼材が使用されており、ライニングを施した鋼材に特許文献1に記載したようなキー溝を施すことが困難であった。仮に鋼材にキー溝を施すことが実現されても、キー溝の使用によってライニングが損傷して、回転軸の腐食が進行してしまう問題があった。このため、撹拌翼は、回転軸に溶接固定されているものが多いのが実情であり、溶融撹拌槽で使用する撹拌翼の取付け位置変更が困難なものとなっていた。すなわち、前述したように、撹拌翼の設置高さを変更する要請があることから、撹拌翼を回転軸に取り付ける際に、ライニングを施した鋼材からなる回転軸にキー溝を施さずに、撹拌翼を回転軸の所望の位置に容易に、かつ、確実に固定できることが望まれる。   However, since molten sulfur is particularly corrosive, a steel material with a lining is used for the rotating shaft, and the key groove as described in Patent Document 1 can be applied to the steel material with the lining. It was difficult. Even if a key groove is provided in the steel material, there is a problem that the lining is damaged by the use of the key groove and the corrosion of the rotating shaft proceeds. For this reason, there are many stirring blades that are welded and fixed to the rotating shaft, and it has been difficult to change the mounting position of the stirring blade used in the melt stirring tank. That is, as described above, since there is a request to change the installation height of the stirring blade, when attaching the stirring blade to the rotating shaft, stirring is performed without providing a keyway on the rotating shaft made of lining steel. It is desired that the wing can be easily and reliably fixed at a desired position on the rotating shaft.

本発明は、上記課題に鑑みてなされたものであり、撹拌翼を回転軸の所望の位置に容易に、かつ、確実に固定することの可能な、新規かつ改良された撹拌翼固定構造、及び撹拌翼固定方法を提供することを目的とする。   The present invention has been made in view of the above problems, and a new and improved stirring blade fixing structure capable of easily and surely fixing a stirring blade to a desired position of a rotating shaft, and It aims at providing the stirring blade fixing method.

本発明の一態様は、ボス部の外周面に撹拌羽根部が立設される撹拌翼を回転軸に取り付ける撹拌翼固定構造であって、前記ボス部の前記外周面に少なくとも1つ設けられる突起部に嵌合可能な溝部が頂部側に形成され、該突起部と該溝部を嵌合させて前記撹拌翼を支持しながら固定する第1の軸固定部と、前記回転軸の外径と略同一の内径を有する軸孔部が該回転軸に嵌合可能に構成され、前記第1の軸固定部を底面側から支持しながら該第1の軸固定部を介して前記撹拌翼を前記回転軸に固定する第2の軸固定部と、を備え、前記第1の軸固定部の内周面側には、頂部側に向けて縮径するように形成される内壁傾斜面が設けられ、前記第2の軸固定部の外周面側には、頂部側に向けて縮径するように形成されて前記内壁傾斜面と当接する外壁傾斜面と、該外壁傾斜面の下端側から外向きに延在するフランジ部が設けられ、前記第1の軸固定部の底面と前記フランジ部は、該底面と該フランジ部との距離を調整可能な連結部材を介して接合されることを特徴とする。   One aspect of the present invention is a stirring blade fixing structure in which a stirring blade having a stirring blade portion standing on an outer peripheral surface of a boss portion is attached to a rotary shaft, and at least one protrusion provided on the outer peripheral surface of the boss portion A groove portion that can be fitted to the first portion is formed on the top side, a first shaft fixing portion that fixes the projecting portion and the groove portion while supporting the stirring blade, and an outer diameter of the rotating shaft is substantially A shaft hole portion having the same inner diameter is configured to be engageable with the rotating shaft, and the stirring blade is rotated through the first shaft fixing portion while supporting the first shaft fixing portion from the bottom surface side. A second shaft fixing portion that is fixed to the shaft, and on the inner peripheral surface side of the first shaft fixing portion, an inner wall inclined surface that is formed to reduce the diameter toward the top side is provided, An outer peripheral surface of the second shaft fixing portion is formed so as to be reduced in diameter toward the top side and is in contact with the inner wall inclined surface. An inclined surface and a flange portion extending outward from the lower end side of the outer wall inclined surface are provided, and the bottom surface of the first shaft fixing portion and the flange portion adjust the distance between the bottom surface and the flange portion. It is characterized by being joined via a possible connecting member.

本発明の一態様によれば、撹拌翼を回転軸に取り付ける際に、回転軸へのキー溝の形成や溶接をすることなく、確実に撹拌翼を回転軸の所望の位置に固定することができる。   According to one aspect of the present invention, when the agitating blade is attached to the rotating shaft, the agitating blade can be reliably fixed at a desired position on the rotating shaft without forming a keyway or welding on the rotating shaft. it can.

このとき、本発明の一態様では、前記第2の軸固定部の前記フランジ部には、ボルト孔が設けられ、前記第1の軸固定部の前記底面には、前記ボルト孔に対向する位置に雌ねじ孔が設けられ、前記連結部材となるボルト及びナットを介して、前記第1の軸固定部の前記底面に設けられる前記雌ねじ孔と前記第2の軸固定部の前記フランジ部の前記ボルト孔を連結して、前記底面と前記フランジ部との距離を調整しながら、前記第1の軸固定部と前記第2の軸固定部を接合することとしてもよい。   At this time, according to an aspect of the present invention, the flange portion of the second shaft fixing portion is provided with a bolt hole, and the bottom surface of the first shaft fixing portion is positioned opposite the bolt hole. The female screw hole provided in the bottom surface of the first shaft fixing portion and the bolt of the flange portion of the second shaft fixing portion via a bolt and nut serving as the connecting member. The first shaft fixing portion and the second shaft fixing portion may be joined while connecting the holes and adjusting the distance between the bottom surface and the flange portion.

このようにすれば、第1の軸固定部の内壁傾斜面と第2の軸固定部の外壁傾斜面とが接した状態から更に距離が近づく方向にナットを締め込むことによって、第2の軸固定部を移動させながら、その外壁傾斜面が第1の軸固定部の内壁傾斜面に押圧されるので、第2の軸固定部の軸孔部が絞り込まれて、第2の軸固定部が回転軸に強固に固定されるようになる。   In this case, the second shaft is tightened by tightening the nut in a direction in which the distance further approaches from the state where the inner wall inclined surface of the first shaft fixing portion and the outer wall inclined surface of the second shaft fixing portion are in contact with each other. Since the outer wall inclined surface is pressed against the inner wall inclined surface of the first shaft fixing portion while moving the fixing portion, the shaft hole portion of the second shaft fixing portion is narrowed down, and the second shaft fixing portion is It becomes firmly fixed to the rotating shaft.

また、本発明の一態様では、前記内壁傾斜面の傾斜角と前記外壁傾斜面の傾斜角は、略同一の大きさであり、かつ、前記外壁傾斜面の長さは、少なくとも前記内壁傾斜面の長さ以上であることとしてもよい。   In one aspect of the present invention, the inclination angle of the inner wall inclined surface and the inclination angle of the outer wall inclined surface are substantially the same size, and the length of the outer wall inclined surface is at least the inner wall inclined surface. It is good also as being more than the length of.

このようにすれば、第1の軸固定部を回転軸に取り付けてから当該第1の軸固定部を底面側から支持するように第2の軸固定部を取り付けることによって、第2の軸固定部の軸孔部が第1の軸固定部で締め付けられるので、第1の軸固定部及び第2の軸固定部を介して、撹拌翼を回転軸により強固に固定できるようになる。   In this case, the second shaft fixing portion is attached by attaching the second shaft fixing portion so that the first shaft fixing portion is supported from the bottom side after the first shaft fixing portion is attached to the rotating shaft. Since the shaft hole portion of the portion is fastened by the first shaft fixing portion, the stirring blade can be firmly fixed to the rotating shaft via the first shaft fixing portion and the second shaft fixing portion.

また、本発明の一態様では、前記ボス部は、前記回転軸の中心線を含み、前記突起部の重心を通過する面で2つに分割され、連結部材を介して前記突起部が接合されることとしてもよい。   In one aspect of the present invention, the boss portion includes a center line of the rotating shaft and is divided into two on a surface passing through the center of gravity of the protrusion, and the protrusion is joined via a connecting member. It is also good to do.

このようにすれば、撹拌翼を回転軸の端部から通す必要がなくなるので、取り付け作業や交換作業が容易になる。   In this way, it is not necessary to pass the stirring blade from the end of the rotating shaft, so that the attachment work and the exchange work are facilitated.

また、本発明の一態様では、前記第1の軸固定部及び前記第2の軸固定部の少なくとも何れか一方は、回転軸の中心線を含む面で2つに分割され、連結部材を介して接合可能な構成となっていることとしてもよい。   In one aspect of the present invention, at least one of the first shaft fixing portion and the second shaft fixing portion is divided into two on a plane including the center line of the rotating shaft, and the connecting member is interposed therebetween. It is good also as a structure which can be joined.

このようにすれば、第1の軸固定部及び第2の軸固定部を回転軸の端部から通す必要がなくなるので、取り付け作業や交換作業が容易になる。   In this way, it is not necessary to pass the first shaft fixing portion and the second shaft fixing portion from the end portion of the rotating shaft, so that the attaching operation and the replacing operation are facilitated.

また、本発明の他の態様は、ボス部の外周面に撹拌羽根部が立設される撹拌翼を回転軸に取り付ける撹拌翼固定方法であって、前記ボス部を前記回転軸に取り付けて、該回転軸の所定の位置に前記ボス部を介して前記撹拌翼を仮固定する工程と、前記ボス部の前記外周面に少なくとも1つ設けられる突起部に嵌合可能な溝部が頂部側に形成され、かつ、頂部側に向けて縮径するように形成される内壁傾斜面が内周面側に設けられる第1の軸固定部を前記回転軸に取り付けて、前記溝部を前記突起部と嵌合させて前記撹拌翼を該第1の軸固定部で支持しながら固定する工程と、前記回転軸の外径と略同一の内径を有する軸孔部が該回転軸に嵌合可能に構成され、かつ、頂部側に向けて縮径するように形成されて前記内壁傾斜面と当接する外壁傾斜面が外周面側に設けられる第2の軸固定部を前記回転軸に取り付けて、前記内壁傾斜面と前記外壁傾斜面とを嵌合させて前記第1の軸固定部を底面側から支持しながら該第1の軸固定部を介して前記撹拌翼を前記回転軸に固定する工程と、前記第2の軸固定部の前記外壁傾斜面の下端側から外向きに延在するフランジ部と前記第1の軸固定部の底面との距離を調整可能な連結部材を介して接合する工程と、を含むことを特徴とする。   Another aspect of the present invention is a stirring blade fixing method for attaching a stirring blade having a stirring blade portion standing on an outer peripheral surface of a boss portion to a rotating shaft, and attaching the boss portion to the rotating shaft, A step of temporarily fixing the agitating blade at a predetermined position of the rotating shaft via the boss portion, and a groove portion that can be fitted to at least one protrusion provided on the outer peripheral surface of the boss portion are formed on the top side. A first shaft fixing portion provided on the inner peripheral surface side with an inner wall inclined surface formed so as to be reduced in diameter toward the top portion side is attached to the rotating shaft, and the groove portion is fitted to the projection portion. And a step of fixing the stirring blade while supporting the stirring blade by the first shaft fixing portion, and a shaft hole portion having an inner diameter substantially the same as the outer diameter of the rotating shaft is configured to be fitted to the rotating shaft. In addition, the outer wall is inclined so as to be reduced in diameter toward the top side and is in contact with the inner wall inclined surface. A second shaft fixing portion having a surface provided on the outer peripheral surface side is attached to the rotating shaft, and the inner wall inclined surface and the outer wall inclined surface are fitted to support the first shaft fixing portion from the bottom surface side. The step of fixing the stirring blade to the rotating shaft via the first shaft fixing portion, the flange portion extending outward from the lower end side of the outer wall inclined surface of the second shaft fixing portion, and the Joining via a connecting member capable of adjusting the distance from the bottom surface of the first shaft fixing portion.

本発明の他の態様によれば、撹拌翼を回転軸に取り付けて固定する際に、回転軸へのキー溝の形成や溶接をすることなく、確実に撹拌翼を回転軸の所望の位置により強固に固定することができる。   According to another aspect of the present invention, when the agitating blade is attached and fixed to the rotating shaft, the agitating blade can be reliably moved to a desired position on the rotating shaft without forming a keyway or welding on the rotating shaft. It can be firmly fixed.

このとき、本発明の他の態様では、前記第1の軸固定部は、前記回転軸の中心線を含む面で2つに分割され、連結部材を介して接合可能な構成となっており、前記第2の軸固定部の前記フランジ部と前記第1の軸固定部の前記底面とを前記連結部材を介して接合した後に、前記第1の軸固定部の前記連結部材による接合強度を増大させる工程を更に含むこととしてもよい。   At this time, in another aspect of the present invention, the first shaft fixing portion is divided into two on the surface including the center line of the rotating shaft, and can be joined via a connecting member. After joining the flange portion of the second shaft fixing portion and the bottom surface of the first shaft fixing portion via the connecting member, the joining strength of the first shaft fixing portion by the connecting member is increased. It is good also as including the process of making it.

このように、第2の軸固定部と第1の軸固定部とを接合してから、連結部材の接合強度を高めることによって、分割された第1の軸固定部の内壁傾斜面がより強固に絞られるようになるので、当該第1の軸固定部の内壁傾斜面に外壁傾斜面面が当接する第2の軸固定部の軸孔部が更に絞られて、撹拌翼をより強固に回転軸に固定することができる。   As described above, by joining the second shaft fixing portion and the first shaft fixing portion and then increasing the joining strength of the connecting member, the inner wall inclined surface of the divided first shaft fixing portion becomes stronger. The shaft hole portion of the second shaft fixing portion where the outer wall inclined surface comes into contact with the inner wall inclined surface of the first shaft fixing portion is further restricted to rotate the stirring blade more firmly. Can be fixed to the shaft.

以上説明したように本発明によれば、撹拌翼を回転軸に取り付ける際に、回転軸へのキー溝の形成や溶接をすることなく、確実に撹拌翼を回転軸の所望の位置に強固に固定することができる。   As described above, according to the present invention, when the agitating blade is attached to the rotating shaft, the agitating blade is securely fixed at a desired position on the rotating shaft without forming a keyway or welding on the rotating shaft. Can be fixed.

本発明の一実施形態に係る撹拌翼固定構造が適用される溶融撹拌槽の概略構成図である。It is a schematic block diagram of the fusion | melting stirring tank to which the stirring blade fixing structure which concerns on one Embodiment of this invention is applied. 本発明の一実施形態に係る撹拌翼固定構造で撹拌翼が回転軸に取り付けられた状態を示す斜視図である。It is a perspective view which shows the state by which the stirring blade was attached to the rotating shaft by the stirring blade fixing structure which concerns on one Embodiment of this invention. 本発明の一実施形態に係る撹拌翼固定構造の概略構成を示す斜視図である。It is a perspective view which shows schematic structure of the stirring blade fixing structure which concerns on one Embodiment of this invention. 図3のA−A断面図である。It is AA sectional drawing of FIG. 本発明の一実施形態に係る撹拌翼固定構造の分解斜視図である。It is a disassembled perspective view of the stirring blade fixing structure which concerns on one Embodiment of this invention. 本発明の一実施形態に係る撹拌翼固定方法の概略を示すフロー図である。It is a flowchart which shows the outline of the stirring blade fixing method which concerns on one Embodiment of this invention.

以下、本発明の好適な実施の形態について詳細に説明する。なお、以下に説明する本実施形態は、特許請求の範囲に記載された本発明の内容を不当に限定するものではなく、本実施形態で説明される構成の全てが本発明の解決手段として必須であるとは限らない。   Hereinafter, preferred embodiments of the present invention will be described in detail. The present embodiment described below does not unduly limit the contents of the present invention described in the claims, and all the configurations described in the present embodiment are essential as means for solving the present invention. Not necessarily.

まず、本発明の一実施形態に係る撹拌翼固定構造が適用される溶融撹拌槽の概略について、図面を使用しながら説明する。図1は、本発明の一実施形態に係る撹拌翼固定構造が適用される溶融撹拌槽の概略構成図である。   First, an outline of a melt stirring tank to which a stirring blade fixing structure according to an embodiment of the present invention is applied will be described with reference to the drawings. FIG. 1 is a schematic configuration diagram of a melting and stirring tank to which a stirring blade fixing structure according to an embodiment of the present invention is applied.

本発明の一実施形態に係る撹拌翼固定構造100が適用される溶融撹拌槽1には、図1に示すように、回転軸2に例えば3つの撹拌翼10、20、30が固定して取り付けられている。回転軸2に取り付けられた撹拌翼10、20、30は、回転軸2の駆動源となるモーター3の駆動によって回転駆動して、溶融撹拌槽内の溶融硫黄からなる溶融層(溶液)4の上層、中層、及び下層をそれぞれ撹拌する。撹拌された溶融硫黄は、オーバーフローにより不図示の槽に流出される。   As shown in FIG. 1, for example, three stirring blades 10, 20, and 30 are fixedly attached to a rotating shaft 2 in a melt stirring tank 1 to which a stirring blade fixing structure 100 according to an embodiment of the present invention is applied. It has been. The stirring blades 10, 20, and 30 attached to the rotating shaft 2 are rotationally driven by driving a motor 3 that is a driving source of the rotating shaft 2, so that the molten layer (solution) 4 made of molten sulfur in the melting stirring tank is formed. The upper layer, middle layer, and lower layer are each stirred. The stirred molten sulfur flows out into a tank (not shown) due to overflow.

これらの撹拌翼10、20、30のうち、溶融層4の中層及び下層を撹拌する撹拌翼20、30は、溶接によって回転軸2に固定されている。これに対して、溶融層4の上層を撹拌するために、液面4aの近くに取り付けられる撹拌翼10は、本発明の一実施形態に係る撹拌翼固定構造100によって、固定されている。   Among these stirring blades 10, 20, and 30, the stirring blades 20 and 30 that stir the middle layer and the lower layer of the molten layer 4 are fixed to the rotating shaft 2 by welding. On the other hand, in order to stir the upper layer of the molten layer 4, the stirring blade 10 attached near the liquid surface 4a is fixed by the stirring blade fixing structure 100 according to one embodiment of the present invention.

回転軸2に取り付けられる撹拌翼10、20、30のうち、撹拌翼10は、溶融層4の液面4aに近づけて、溶融層4の液面4aを波立たせて、浮遊している残渣を取り込み易くするために、溶融層4の浅い位置に取り付けられる必要がある。このため、本実施形態では、撹拌翼10を液面4aの近くに設置するために、回転軸2の所望の高さ位置に撹拌翼10を固定可能とする撹拌翼固定構造100を用いて、当該撹拌翼10を回転軸3に取り付けている。   Among the stirring blades 10, 20, and 30 attached to the rotating shaft 2, the stirring blade 10 is brought close to the liquid surface 4 a of the molten layer 4, and the liquid surface 4 a of the molten layer 4 is made to wave, and the floating residue is removed. In order to make it easy to take in, it is necessary to attach to the shallow position of the molten layer 4. For this reason, in this embodiment, in order to install the stirring blade 10 near the liquid surface 4a, the stirring blade fixing structure 100 that can fix the stirring blade 10 at a desired height position of the rotary shaft 2 is used. The stirring blade 10 is attached to the rotary shaft 3.

なお、本実施形態では、溶融層4の上層を撹拌する撹拌翼10のみ本実施形態に係る撹拌翼固定構造100で回転軸2に固定されているが、撹拌翼20、30も所望の高さ位置に確実に固定するために、本実施形態に係る撹拌翼固定構造100で回転軸2に取り付けるようにしてもよい。   In this embodiment, only the stirring blade 10 that stirs the upper layer of the molten layer 4 is fixed to the rotary shaft 2 by the stirring blade fixing structure 100 according to this embodiment, but the stirring blades 20 and 30 are also of a desired height. In order to securely fix the position, the stirring blade fixing structure 100 according to the present embodiment may be attached to the rotary shaft 2.

次に、本発明の一実施形態に係る撹拌翼固定構造の構成について、図面を使用しながら説明する。図2は、本発明の一実施形態に係る撹拌翼固定構造で撹拌翼が回転軸に取り付けられた状態を示す斜視図であり、図3は、本発明の一実施形態に係る撹拌翼固定構造の概略構成を示す斜視図であり、図4は、図3のA−A断面図であり、図5は、本発明の一実施形態に係る撹拌翼固定構造の分解斜視図である。   Next, the configuration of the stirring blade fixing structure according to an embodiment of the present invention will be described with reference to the drawings. FIG. 2 is a perspective view showing a state in which the stirring blade is attached to the rotating shaft in the stirring blade fixing structure according to one embodiment of the present invention, and FIG. 3 is a stirring blade fixing structure according to one embodiment of the present invention. 4 is a cross-sectional view taken along the line AA of FIG. 3, and FIG. 5 is an exploded perspective view of the stirring blade fixing structure according to the embodiment of the present invention.

本発明の一実施形態に係る撹拌翼固定構造100は、撹拌翼10を回転軸2に取り付けて固定する際に使用される。本実施形態の撹拌翼固定構造100は、図2に示すように、撹拌翼10を支持しながら固定する第1の軸固定部110と、第1の軸固定部110を底面側から支持しながら当該第1の軸固定部110を介して撹拌翼10を回転軸2に固定する第2の軸固定部120とを備える。すなわち、本実施形態では、第1の軸固定部110と第2の軸固定部120を使用することによって、撹拌羽根部12とボス部11からなる撹拌翼10を回転軸2の所望の高さ位置に固定する。   The stirring blade fixing structure 100 according to an embodiment of the present invention is used when the stirring blade 10 is attached to and fixed to the rotary shaft 2. As shown in FIG. 2, the stirring blade fixing structure 100 of the present embodiment has a first shaft fixing portion 110 that fixes the stirring blade 10 while supporting it, and supports the first shaft fixing portion 110 from the bottom surface side. And a second shaft fixing portion 120 that fixes the stirring blade 10 to the rotary shaft 2 via the first shaft fixing portion 110. That is, in the present embodiment, by using the first shaft fixing portion 110 and the second shaft fixing portion 120, the stirring blade 10 composed of the stirring blade portion 12 and the boss portion 11 is moved to a desired height of the rotary shaft 2. Fix in position.

本発明の一実施形態に係る撹拌翼固定構造100で回転軸2に固定される撹拌翼10は、略円筒形のボス部11の外周面11cに1対の撹拌羽根部12が立設される構成となっている。撹拌羽根部12は、ボス部11の外周面11cに溶接か一体成型によって固定される。   In the stirring blade 10 fixed to the rotary shaft 2 by the stirring blade fixing structure 100 according to one embodiment of the present invention, a pair of stirring blade portions 12 are erected on the outer peripheral surface 11c of the substantially cylindrical boss portion 11. It has a configuration. The stirring blade portion 12 is fixed to the outer peripheral surface 11c of the boss portion 11 by welding or integral molding.

ボス部11の外周面11cには、図2に示すように、1対すなわち2つの突起部13が互いに対向する位置に設けられている。各突起部13は、フランジ状に形成されており、その下端部13bがボス部11の底面11bより突出した構造となっており、当該突起部13の下端部13bが後述する第1の軸固定部110の頂部側に形成される溝部111に嵌合されている。また、ボス部11の外周面11cにおける撹拌羽根部12と突起部13との間には、撹拌翼10を回転軸2に取り付ける際に使用する仮止め用ボルト16が設けられている。なお、突起部13の個数は、2つに限定されず、ボス部11の外周面11cに少なくとも1つ設けられていればよい。   On the outer peripheral surface 11c of the boss part 11, as shown in FIG. 2, a pair, that is, two protrusions 13 are provided at positions facing each other. Each projecting portion 13 is formed in a flange shape, and has a lower end portion 13b projecting from the bottom surface 11b of the boss portion 11. The lower end portion 13b of the projecting portion 13 is a first shaft fixing described later. It is fitted in a groove 111 formed on the top side of the portion 110. Further, a temporary fixing bolt 16 that is used when the stirring blade 10 is attached to the rotary shaft 2 is provided between the stirring blade portion 12 and the protrusion 13 on the outer peripheral surface 11 c of the boss portion 11. The number of the protrusions 13 is not limited to two, and it is sufficient that at least one protrusion is provided on the outer peripheral surface 11 c of the boss part 11.

本実施形態では、ボス部11は、図3に示すように、回転軸2の中心線を含み、突起部13の重心を通過する面で2つに分割され、ボルト14とナット15からなる連結部材を介して当該突起部13が接合される構成となっている。すなわち、ボス部11は、回転軸2の中心線を含み、突起部13の重心を通過する面を介して対称な2つのパーツからなる構成となっている。   In the present embodiment, as shown in FIG. 3, the boss portion 11 includes a center line of the rotating shaft 2, is divided into two on a surface passing through the center of gravity of the protruding portion 13, and is a connection composed of a bolt 14 and a nut 15. The protrusion 13 is configured to be joined via a member. In other words, the boss portion 11 includes two parts that are symmetrical via a plane that includes the center line of the rotating shaft 2 and passes through the center of gravity of the protruding portion 13.

また、ボルト14の下側には、座金17が設けられ、座金17の外側の角部は、折り曲げられてボルト14の回転止め機能を有する係止部17aが形成されている。なお、ボス部11を接合する連結部材は、突起部13のそれぞれをボルト14とナット15で固定する態様に限定されず、例えば、一方の突起部13をボルト締めで接合し、他方の突起部13を蝶番状の治具で連結させる態様としても良い。   A washer 17 is provided below the bolt 14, and a corner 17 on the outside of the washer 17 is bent to form a locking portion 17 a having a function of preventing the bolt 14 from rotating. In addition, the connection member which joins the boss | hub part 11 is not limited to the aspect which fixes each of the projection part 13 with the volt | bolt 14 and the nut 15, For example, one projection part 13 is joined by bolting, and the other projection part It is good also as an aspect which connects 13 with a hinge-shaped jig | tool.

このように、ボス部11を2つに分割される構成とすることによって、撹拌翼10を回転軸2に取り付ける際に、撹拌翼10を回転軸2の端部から通す必要がなくなるので、他の撹拌翼20、30(図1参照)が溶接等で固定されていることに影響されず、取り付け作業や交換作業が容易になる。   As described above, the configuration in which the boss portion 11 is divided into two parts eliminates the need to pass the stirring blade 10 from the end of the rotating shaft 2 when the stirring blade 10 is attached to the rotating shaft 2. The agitating blades 20 and 30 (see FIG. 1) are not affected by being fixed by welding or the like, and attachment and replacement operations are facilitated.

第1の軸固定部110は、ボス部11の外周面11cに設けられる突起部13に嵌合可能な溝部111がその頂部110a側に形成され、突起部13と溝部111を嵌合させることによって撹拌翼10を支持しながら固定する機能を有する。溝部111は、図5に示すように、第1の軸固定部110の頂部110aにおけるボス部11に備わる2つの突起部13に対向する位置に2つ設けられ、当該突起部13にそれぞれ嵌合可能になっているので、撹拌翼10の空転を未然に防げるようになる。なお、撹拌翼10の回転方向によっては、撹拌翼10が浮き上がる力が作用する場合があり、そのような場合には、撹拌翼10の自重との差分の力に耐えられる不図示のボルト等の連結部材で撹拌翼10と第1の軸固定部110とを連結するようにしてもよい。   In the first shaft fixing portion 110, a groove portion 111 that can be fitted to the projection portion 13 provided on the outer peripheral surface 11c of the boss portion 11 is formed on the top portion 110a side, and the projection portion 13 and the groove portion 111 are fitted to each other. It has a function of fixing the stirring blade 10 while supporting it. As shown in FIG. 5, two groove portions 111 are provided at positions facing the two protrusion portions 13 provided on the boss portion 11 in the top portion 110 a of the first shaft fixing portion 110, and are respectively fitted to the protrusion portions 13. Since this is possible, the idling of the stirring blade 10 can be prevented beforehand. Depending on the rotation direction of the stirring blade 10, a force that lifts the stirring blade 10 may act. In such a case, a bolt or the like (not shown) that can withstand a differential force from the weight of the stirring blade 10 is used. You may make it connect the stirring blade 10 and the 1st axis | shaft fixing | fixed part 110 with a connection member.

本実施形態では、第1の軸固定部110の内周面側には、図4に示すように、頂部110a側に向けて縮径するように形成されるテーパー状の内壁傾斜面110dが設けられている。当該内壁傾斜面110dは、後述するように、第2の軸固定部120の外周面側に設けられるテーパー状の外壁傾斜面120cと当接する。第1の軸固定部110の外周面110cには、図5に示すように、第1の軸固定部110を回転軸2に取り付ける際に使用する仮止め用ボルト115が設けられている。   In the present embodiment, as shown in FIG. 4, a tapered inner wall inclined surface 110 d formed so as to be reduced in diameter toward the top portion 110 a side is provided on the inner peripheral surface side of the first shaft fixing portion 110. It has been. The inner wall inclined surface 110d is in contact with a tapered outer wall inclined surface 120c provided on the outer peripheral surface side of the second shaft fixing portion 120, as will be described later. As shown in FIG. 5, a temporary fixing bolt 115 used when the first shaft fixing portion 110 is attached to the rotating shaft 2 is provided on the outer peripheral surface 110 c of the first shaft fixing portion 110.

また、本実施形態では、第1の軸固定部110は、図3に示すように、回転軸2の中心線を含む面で2つに分割され、ボルト113とナット114からなる連結部材を介して第1の軸固定部110の端部側に設けられるフランジ部112が接合される構成となっている。すなわち、第1の軸固定部110は、回転軸2の中心線を含み、フランジ部112の重心を通過する面を介して対称な2つのパーツからなる構成となっている。また、当該フランジ部112は、ボス部11の突起部13の突出向きに対して、直交する方向に突き出す構成となっている。   In the present embodiment, as shown in FIG. 3, the first shaft fixing portion 110 is divided into two parts on the plane including the center line of the rotating shaft 2, and a connecting member composed of a bolt 113 and a nut 114 is interposed. Thus, the flange portion 112 provided on the end side of the first shaft fixing portion 110 is joined. In other words, the first shaft fixing portion 110 includes two parts that are symmetrical with respect to a plane that includes the center line of the rotating shaft 2 and passes through the center of gravity of the flange portion 112. Further, the flange portion 112 is configured to protrude in a direction orthogonal to the protruding direction of the protruding portion 13 of the boss portion 11.

ボルト113の下側には、座金117が設けられ、座金117の外側の角部は、折り曲げられてボルト113の回転止め機能を有する係止部117aが形成されている。なお、第1の軸固定部110を接合する連結部材は、フランジ部112のそれぞれをボルト113とナット114で固定する態様に限定されず、例えば、一方のフランジ部112をボルト締めで接合し、他方のフランジ部112を蝶番状の治具で連結させる態様としても良い。   A washer 117 is provided on the lower side of the bolt 113, and an outer corner of the washer 117 is bent to form a locking portion 117 a having a function of preventing the bolt 113 from rotating. The connecting member that joins the first shaft fixing part 110 is not limited to an aspect in which each of the flange parts 112 is fixed by the bolt 113 and the nut 114. For example, one flange part 112 is joined by bolting, It is good also as an aspect which connects the other flange part 112 with a hinge-shaped jig | tool.

このように、第1の軸固定部110を2つに分割される構成とすることによって、撹拌翼10を回転軸2に取り付ける際に、第1の軸固定部110を回転軸2の端部から通す必要がなくなるので、他の撹拌翼20、30(図1参照)が溶接等で固定されていることに影響されず、取り付け作業や交換作業が容易になる。   Thus, when the first shaft fixing portion 110 is divided into two parts, the first shaft fixing portion 110 is attached to the end portion of the rotating shaft 2 when the stirring blade 10 is attached to the rotating shaft 2. Therefore, it is not affected by the fact that the other stirring blades 20 and 30 (see FIG. 1) are fixed by welding or the like, and attachment and replacement work are facilitated.

第2の軸固定部120は、回転軸2の外径と略同一の内径を有する軸孔部120dが回転軸2に嵌合可能に構成され、第1の軸固定部110を底面110b側から支持しながら当該第1の軸固定部110を介して撹拌翼10を回転軸2に固定する機能を有する。本実施形態では、図4に示すように、第2の軸固定部120の外周面側には、頂部120a側に向けて縮径するように形成される外壁傾斜面120cと、当該外壁傾斜面120cの下端側から外向きに延在するフランジ部121が設けられる。外壁傾斜面120cは、第1の軸固定部110の内周面側に設けられるテーパー状の内壁傾斜面110dと当接する。   The second shaft fixing portion 120 is configured such that a shaft hole portion 120d having an inner diameter substantially the same as the outer diameter of the rotating shaft 2 can be fitted to the rotating shaft 2, and the first shaft fixing portion 110 is connected to the bottom surface 110b side. It has a function of fixing the stirring blade 10 to the rotating shaft 2 through the first shaft fixing portion 110 while supporting. In the present embodiment, as shown in FIG. 4, an outer wall inclined surface 120c formed on the outer peripheral surface side of the second shaft fixing portion 120 so as to reduce the diameter toward the top portion 120a, and the outer wall inclined surface. A flange portion 121 extending outward from the lower end side of 120c is provided. The outer wall inclined surface 120c is in contact with a tapered inner wall inclined surface 110d provided on the inner peripheral surface side of the first shaft fixing portion 110.

本実施形態では、第2の軸固定部120は、図3に示すように、回転軸2の中心線を含む面、すなわち、第1の軸固定部110のフランジ部112の突出向きに対して、直交する方向に展開される面で2つに分割され、不図示の蝶番状の治具等からなる連結部材を介して接合される構成となっている。すなわち、第2の軸固定部120は、回転軸2の中心線を含む面を介して対称な2つのパーツからなる構成となっている。このように、第2の軸固定部120を2つに分割される構成とすることによって、撹拌翼10を回転軸2に取り付ける際に、第2の軸固定部120を回転軸2の端部から通す必要がなくなるので、他の撹拌翼20、30(図1参照)が溶接等で固定されていることに影響されることがなくなり、取り付け作業や交換作業が容易になる。   In the present embodiment, as shown in FIG. 3, the second shaft fixing portion 120 is in a plane including the center line of the rotating shaft 2, that is, with respect to the protruding direction of the flange portion 112 of the first shaft fixing portion 110. It is divided into two parts on the surface developed in the orthogonal direction, and is joined via a connecting member made of a hinge-shaped jig (not shown). That is, the second shaft fixing portion 120 is configured by two parts that are symmetric via a plane including the center line of the rotating shaft 2. Thus, when the second shaft fixing portion 120 is divided into two parts, the second shaft fixing portion 120 is attached to the end portion of the rotating shaft 2 when the stirring blade 10 is attached to the rotating shaft 2. Therefore, it is not affected by the fact that the other stirring blades 20 and 30 (see FIG. 1) are fixed by welding or the like, and the installation work and the exchange work are facilitated.

また、本実施形態では、第1の軸固定部110の底面110bと第2の軸固定部120のフランジ部121は、連結部材を介して接合されることを特徴とする。具体的には、図4に示すように、第2の軸固定部120のフランジ部121には、ボルト孔124が設けられ、第1の軸固定部110の底面110bには、当該ボルト孔124に対向する位置に雌ねじ孔116が設けられている。そして、連結部材となるボルト122及びナット123、125を介して、第1の軸固定部110の底面110bに設けられる雌ねじ孔116と第2の軸固定部120のフランジ部121のボルト孔124を連結している。   In the present embodiment, the bottom surface 110b of the first shaft fixing portion 110 and the flange portion 121 of the second shaft fixing portion 120 are joined via a connecting member. Specifically, as shown in FIG. 4, a bolt hole 124 is provided in the flange portion 121 of the second shaft fixing portion 120, and the bolt hole 124 is provided in the bottom surface 110 b of the first shaft fixing portion 110. A female screw hole 116 is provided at a position opposite to. Then, the female screw hole 116 provided in the bottom surface 110b of the first shaft fixing portion 110 and the bolt hole 124 of the flange portion 121 of the second shaft fixing portion 120 are connected via the bolt 122 and the nuts 123 and 125 serving as connecting members. It is connected.

本実施形態では、第1の軸固定部110の底面110bに設けられた雌ねじ孔116にねじ込まれたボルト122を上側のナット125で固定しており、第2の軸固定部120のフランジ部121に設けられたボルト孔124にねじ込まれたボルト122を下側のナット123で固定している。そして、下側のナット123を上下方向に移動させることによって、第2の軸固定部120を上下方向に移動させて第1の軸固定部110の底面110bと第2の軸固定部120のフランジ部121との距離を調整しながら、第1の軸固定部110と第2の軸固定部120を接合するようになっている。   In this embodiment, the bolt 122 screwed into the female screw hole 116 provided in the bottom surface 110 b of the first shaft fixing portion 110 is fixed by the upper nut 125, and the flange portion 121 of the second shaft fixing portion 120. A bolt 122 screwed into a bolt hole 124 provided at the bottom is fixed by a lower nut 123. Then, by moving the lower nut 123 in the vertical direction, the second shaft fixing portion 120 is moved in the vertical direction, and the bottom surface 110b of the first shaft fixing portion 110 and the flange of the second shaft fixing portion 120 are moved. The first shaft fixing portion 110 and the second shaft fixing portion 120 are joined while adjusting the distance from the portion 121.

このようにすれば、第1の軸固定部110の内壁傾斜面110dと第2の軸固定部120の外壁傾斜面120cが接した状態から更に距離が近づく方向に第2の軸固定部120を移動させるように、下側のナット123をボルト122に沿って移動させるので、第2の軸固定部120の外壁傾斜面120cが第1の軸固定部110の内壁傾斜面110dに押圧されるようになる。このため、第2の軸固定部120の軸孔部120dが絞り込まれて、当該軸孔部120dが回転軸2をより加圧した状態で把持するようになるので、第2の軸固定部120が回転軸2に強固に固定されるようになる。   In this way, the second shaft fixing portion 120 is moved in a direction in which the distance further approaches from the state in which the inner wall inclined surface 110d of the first shaft fixing portion 110 and the outer wall inclined surface 120c of the second shaft fixing portion 120 are in contact with each other. Since the lower nut 123 is moved along the bolt 122 so as to move, the outer wall inclined surface 120c of the second shaft fixing portion 120 is pressed against the inner wall inclined surface 110d of the first shaft fixing portion 110. become. For this reason, the shaft hole portion 120d of the second shaft fixing portion 120 is narrowed down so that the shaft hole portion 120d grips the rotating shaft 2 in a more pressurized state. Is firmly fixed to the rotary shaft 2.

すなわち、本実施形態では、第1の軸固定部110と第2の軸固定部120は、ボルト122とナット123、125により上下高さ位置を調整可能に接続されている。そして、下側のナット123の位置調整を行って、第1の軸固定部110の内壁傾斜面110dに対して第2の軸固定部120の外壁傾斜面120cを上下方向にスライドさせることによって、第2の軸固定部120の中央に設けられる軸孔部120dの内径を可変させるので、回転軸4を強固に把持し、回転軸2に対する位置決め固定を可能としている。   That is, in the present embodiment, the first shaft fixing portion 110 and the second shaft fixing portion 120 are connected by the bolt 122 and the nuts 123 and 125 so that the vertical height position can be adjusted. Then, by adjusting the position of the lower nut 123 and sliding the outer wall inclined surface 120c of the second shaft fixing portion 120 in the vertical direction with respect to the inner wall inclined surface 110d of the first shaft fixing portion 110, Since the inner diameter of the shaft hole portion 120d provided at the center of the second shaft fixing portion 120 is varied, the rotating shaft 4 can be firmly gripped and positioned and fixed to the rotating shaft 2.

第1の軸固定部110の内壁傾斜面110dに対して第2の軸固定部120の外壁傾斜面120cをスライドさせて、第2の軸固定部120の軸孔部120dを絞り込んで、その内径を可変させるには、内壁傾斜面110dの傾斜角と外壁傾斜面120cの傾斜角は、略同一の大きさであり、かつ、外壁傾斜面120cの長さは、少なくとも内壁傾斜面110dの長さ以上であることが好ましい。このように、第1の軸固定部110の内壁傾斜面110dと第2の軸固定部120の外壁傾斜面120cを設けることによって、第1の軸固定部110を回転軸2に取り付けてから、当該第1の軸固定部110を底面側から支持するように第2の軸固定部120を取り付ける際に、第2の軸固定部120の軸孔部120dが第1の軸固定部110で締め付けられる。   By sliding the outer wall inclined surface 120c of the second shaft fixing portion 120 with respect to the inner wall inclined surface 110d of the first shaft fixing portion 110, the shaft hole portion 120d of the second shaft fixing portion 120 is squeezed, and the inner diameter thereof is reduced. Is variable, the inclination angle of the inner wall inclined surface 110d is substantially the same as the inclination angle of the outer wall inclined surface 120c, and the length of the outer wall inclined surface 120c is at least the length of the inner wall inclined surface 110d. The above is preferable. As described above, by providing the inner wall inclined surface 110d of the first shaft fixing portion 110 and the outer wall inclined surface 120c of the second shaft fixing portion 120, the first shaft fixing portion 110 is attached to the rotary shaft 2; When attaching the second shaft fixing portion 120 so as to support the first shaft fixing portion 110 from the bottom surface side, the shaft hole portion 120d of the second shaft fixing portion 120 is tightened by the first shaft fixing portion 110. It is done.

特に、外壁傾斜面120cの長さを内壁傾斜面110dの長さより大きくすることによって、第2の軸固定部120を第1の軸固定部110に押し込むストロークを確保できる。このため、第2の軸固定部120を第1の軸固定部110の内壁傾斜面110dに向けて楔のように押し込むことによって、第1の軸固定部110及び第2の軸固定部120を介して、撹拌翼10を回転軸2により強固に固定できるようになる。なお、ここで言及する内壁傾斜面110d及び外壁傾斜面120cの傾斜角とは、水平面(図4に示すX軸方向)に対する傾斜角の大きさを言うものとする。また、内壁傾斜面110dと外壁傾斜面120cの傾斜角に関して「略同一」とは、完全に同一な角度から0〜5度程度の微量な差分を有する角度の範囲を言うものとする。   In particular, the stroke of pushing the second shaft fixing portion 120 into the first shaft fixing portion 110 can be secured by making the length of the outer wall inclined surface 120c larger than the length of the inner wall inclined surface 110d. Therefore, by pushing the second shaft fixing portion 120 toward the inner wall inclined surface 110d of the first shaft fixing portion 110 like a wedge, the first shaft fixing portion 110 and the second shaft fixing portion 120 are moved. Accordingly, the stirring blade 10 can be firmly fixed to the rotating shaft 2. In addition, the inclination angles of the inner wall inclined surface 110d and the outer wall inclined surface 120c referred to here refer to the magnitude of the inclination angle with respect to the horizontal plane (X-axis direction shown in FIG. 4). Further, “substantially the same” regarding the inclination angles of the inner wall inclined surface 110d and the outer wall inclined surface 120c refers to a range of angles having a slight difference of about 0 to 5 degrees from the completely same angle.

本発明の一実施形態に係る撹拌翼固定構造100をこのような構成とすることによって、撹拌翼固定構造100で撹拌翼10を回転軸2に固定する際に、撹拌翼10の突起部13を第1の軸固定部110の溝部111に嵌合させて、撹拌翼10が空転しないように、撹拌翼10を第1の軸固定部110に支持・固定する。そして、撹拌翼10を支持・固定する第1の軸固定部110の内壁傾斜面110dに向けて、外壁傾斜面120cが設けられる第2の軸固定部120を連結部材となるボルト122とナット123、125を介して、楔のようにねじ込むことによって、第2の軸固定部120の軸孔部120dが絞り込まれるので、第2の軸固定部120が回転軸2に強固に固定されるようになる。このため、第2の軸固定部120に支持・固定される第1の軸固定部110を介して、撹拌翼10が回転軸2に確実に固定されるようになる。   When the stirring blade fixing structure 100 according to an embodiment of the present invention is configured as described above, when the stirring blade 10 is fixed to the rotary shaft 2 by the stirring blade fixing structure 100, the protruding portion 13 of the stirring blade 10 is provided. The stirring blade 10 is supported and fixed to the first shaft fixing portion 110 so as to be fitted into the groove portion 111 of the first shaft fixing portion 110 so that the stirring blade 10 does not idle. Then, a bolt 122 and a nut 123 that serve as a connecting member for the second shaft fixing portion 120 provided with the outer wall inclined surface 120c toward the inner wall inclined surface 110d of the first shaft fixing portion 110 that supports and fixes the stirring blade 10. , 125 is screwed like a wedge to narrow the shaft hole portion 120d of the second shaft fixing portion 120, so that the second shaft fixing portion 120 is firmly fixed to the rotary shaft 2. Become. For this reason, the stirring blade 10 is reliably fixed to the rotating shaft 2 through the first shaft fixing portion 110 supported and fixed to the second shaft fixing portion 120.

このような撹拌翼固定構造100を用いることによって、撹拌翼10を回転軸2に固定する際に、溶接作業や、回転軸にキー溝を施す作業をすることなく、撹拌翼10の空転や脱落を未然に防ぎながら取り付けることができる。また、回転軸2への撹拌翼10の取り付け位置を所望の高さ位置に可変とすることができる。すなわち、回転軸2の所望の高さ位置に撹拌翼10を容易に、かつ、強固に固定することができる。   By using such a stirring blade fixing structure 100, when the stirring blade 10 is fixed to the rotary shaft 2, the stirring blade 10 is idled or dropped without performing welding work or a key groove on the rotary shaft. It can be installed while preventing. Further, the mounting position of the stirring blade 10 on the rotating shaft 2 can be changed to a desired height position. That is, the stirring blade 10 can be easily and firmly fixed at a desired height position of the rotating shaft 2.

また、本実施形態では、撹拌翼10、第1の軸固定部110、及び第2の軸固定部120を2つに分割可能な構成としているので、撹拌翼10、第1の軸固定部110、及び第2の軸固定部120を回転軸2に取り付ける際に、撹拌翼10、第1の軸固定部110、及び第2の軸固定部120を回転軸2の端部から通す必要がなくなる。このため、他の撹拌翼20、30(図1参照)が溶接等で固定されていることに影響されず、一体成型されている場合のように、交換するために切断等の作業をする必要がなくなるので、取り付け作業や交換作業が容易になり、コスト的にも有利となる。なお、本実施形態では、撹拌翼10、第1の軸固定部110、及び第2の軸固定部120を2つに分割可能な構成としているが、構成パーツ数は、2つに限定されず、例えば、3つ以上のパーツに分割する構成としてもよい。   Further, in the present embodiment, since the stirring blade 10, the first shaft fixing portion 110, and the second shaft fixing portion 120 are configured to be divided into two, the stirring blade 10, the first shaft fixing portion 110 are configured. When the second shaft fixing portion 120 is attached to the rotating shaft 2, it is not necessary to pass the stirring blade 10, the first shaft fixing portion 110, and the second shaft fixing portion 120 from the end of the rotating shaft 2. . For this reason, it is not influenced by the other stirring blades 20 and 30 (see FIG. 1) being fixed by welding or the like, and it is necessary to perform a work such as cutting in order to replace them as in the case of being integrally molded. Therefore, attachment work and replacement work become easy, which is advantageous in terms of cost. In the present embodiment, the stirring blade 10, the first shaft fixing portion 110, and the second shaft fixing portion 120 can be divided into two parts, but the number of constituent parts is not limited to two. For example, it is good also as a structure divided | segmented into three or more parts.

次に、本発明の一実施形態に係る撹拌翼固定方法の概略について、図面を使用しながら説明する。図6は、本発明の一実施形態に係る撹拌翼固定方法の概略を示すフロー図である。   Next, an outline of a stirring blade fixing method according to an embodiment of the present invention will be described with reference to the drawings. FIG. 6 is a flowchart showing an outline of a stirring blade fixing method according to an embodiment of the present invention.

本発明の一実施形態に係る撹拌翼固定方法は、撹拌翼固定構造100を用いて撹拌翼10を回転軸2の所望の高さ位置に取り付けて固定する。本実施形態では、ボス部11の外周面11cに撹拌羽根部12が立設される撹拌翼10を回転軸2に取り付ける際に、まず、ボス部11を回転軸2に取り付けて、当該回転軸2の所定の位置にボス部11を介して撹拌翼10を仮固定する(工程S11)。このとき、ボス部11に設けられている仮止め用ボルト16(図2参照)を用いて、回転軸2に撹拌翼10のボス部11を仮固定する。なお、当該仮止め用ボルト16は、撹拌翼10の自重との差分の力に耐えられる強度を有することが好ましい。   In the stirring blade fixing method according to an embodiment of the present invention, the stirring blade 10 is attached and fixed to a desired height position of the rotary shaft 2 using the stirring blade fixing structure 100. In this embodiment, when attaching the stirring blade 10 in which the stirring blade portion 12 is erected on the outer peripheral surface 11 c of the boss portion 11 to the rotating shaft 2, first, the boss portion 11 is attached to the rotating shaft 2, and the rotating shaft The stirring blade 10 is temporarily fixed to the predetermined position 2 via the boss portion 11 (step S11). At this time, the boss portion 11 of the stirring blade 10 is temporarily fixed to the rotating shaft 2 by using a temporary fixing bolt 16 (see FIG. 2) provided on the boss portion 11. The temporary fixing bolt 16 preferably has a strength that can withstand a force different from the weight of the stirring blade 10.

回転軸2に撹拌翼10を仮固定したら、次に、回転軸2に第1の軸固定部110を取り付ける(工程S12)。本実施形態では、第1の軸固定部110の頂部側には、撹拌翼10のボス部11に設けられる突起部13に嵌合可能な溝部111が形成されているので、当該溝部111にボス部11の突起部13を嵌合させることによって、第1の軸固定部110で撹拌翼10を支持しながら固定する。また、撹拌翼10を支持・固定した第1の軸固定部110は、次工程S13で第1の軸固定部110を底面側から第2の軸固定部120を回転軸2に取り付けるまでの間、仮止め用ボルト115をねじ込んで、仮止め用ボルト115の先端を回転軸2に当接させることによって、仮固定される。   If the stirring blade 10 is temporarily fixed to the rotating shaft 2, then the first shaft fixing portion 110 is attached to the rotating shaft 2 (step S12). In the present embodiment, a groove 111 that can be fitted to the protrusion 13 provided on the boss 11 of the stirring blade 10 is formed on the top side of the first shaft fixing portion 110. By fitting the protruding portion 13 of the portion 11, the stirring blade 10 is fixed while being supported by the first shaft fixing portion 110. In addition, the first shaft fixing portion 110 that supports and fixes the stirring blade 10 is in the next process S13 until the first shaft fixing portion 110 is attached from the bottom side to the second shaft fixing portion 120 on the rotating shaft 2. The temporary fixing bolt 115 is screwed and the tip of the temporary fixing bolt 115 is brought into contact with the rotary shaft 2 to be temporarily fixed.

回転軸2に第1の軸固定部110を取り付けたら、次に、回転軸2に第2の軸固定部120を取り付ける(工程S13)。本実施形態では、回転軸2の外径と略同一の内径を有する軸孔部120dが回転軸2に嵌合可能に構成され、かつ、第1の軸固定部110の内壁傾斜面110dと当接する外壁傾斜面120cが外周面側に設けられる第2の軸固定部120を回転軸2に取り付ける。そして、内壁傾斜面110dと外壁傾斜面120cとを嵌合させて第1の軸固定部110を底面側から支持しながら、第1の軸固定部110を介して撹拌翼10を回転軸2に固定する。   If the 1st axis | shaft fixing | fixed part 110 is attached to the rotating shaft 2, next, the 2nd axis | shaft fixing | fixed part 120 will be attached to the rotating shaft 2 (process S13). In the present embodiment, a shaft hole portion 120d having an inner diameter substantially the same as the outer diameter of the rotating shaft 2 is configured to be fitted to the rotating shaft 2, and is in contact with the inner wall inclined surface 110d of the first shaft fixing portion 110. A second shaft fixing portion 120 provided with an outer wall inclined surface 120 c in contact with the outer peripheral surface is attached to the rotary shaft 2. Then, while the inner wall inclined surface 110d and the outer wall inclined surface 120c are fitted to support the first shaft fixing portion 110 from the bottom surface side, the stirring blade 10 is attached to the rotary shaft 2 via the first shaft fixing portion 110. Fix it.

回転軸2に第2の軸固定部120を取り付けたら、次に、第2の軸固定部120の外壁傾斜面120cの下端側から外向きに延在するフランジ部121と第1の軸固定部110の底面110bとの距離を調整可能な連結部材を介して接合する(工程S14)。本実施形態では、ボルト122とナット123、125を連結部材として、第2の軸固定部120のフランジ部121と第1の軸固定部110の底面110bとの距離を調整しながら接合している。   After the second shaft fixing portion 120 is attached to the rotating shaft 2, the flange portion 121 and the first shaft fixing portion that extend outward from the lower end side of the outer wall inclined surface 120c of the second shaft fixing portion 120 are next. It joins via the connection member which can adjust the distance with the bottom face 110b of 110 (process S14). In the present embodiment, the bolt 122 and the nuts 123 and 125 are used as connecting members, and the flange 121 of the second shaft fixing portion 120 and the bottom surface 110b of the first shaft fixing portion 110 are joined while adjusting the distance. .

このため、第1の軸固定部110の底面110bの雌ねじ孔116にねじ込まれたボルト122に対して、下側のナット123を上向きに移動させることによって、第2の軸固定部120の外壁傾斜面120cが第1の軸固定部110の内壁傾斜面110dに向けて、楔のようにねじ込まれるので、第2の軸固定部120の軸孔部120dが絞り込まれる。これによって、第2の軸固定部120が回転軸2により強固に固定されるようになる。   Therefore, the outer wall of the second shaft fixing portion 120 is inclined by moving the lower nut 123 upward with respect to the bolt 122 screwed into the female screw hole 116 of the bottom surface 110b of the first shaft fixing portion 110. Since the surface 120c is screwed like a wedge toward the inner wall inclined surface 110d of the first shaft fixing portion 110, the shaft hole portion 120d of the second shaft fixing portion 120 is narrowed down. As a result, the second shaft fixing portion 120 is firmly fixed to the rotating shaft 2.

その後、第1の軸固定部110の連結部材となるボルト113とナット114による接合強度を増大させる(工程S15)。具体的には、第1の軸固定部110に第2の軸固定部120を近づける方向にボルト締めをした後に、更に、2つの部材が連結部材を介して接合して構成される第1の軸固定部110を一体とするためのボルト締めを増し締めする。   Then, the joining strength by the bolt 113 and the nut 114 that are the connecting members of the first shaft fixing portion 110 is increased (step S15). Specifically, after the second shaft fixing portion 120 is bolted in a direction to bring the second shaft fixing portion 120 closer to the first shaft fixing portion 110, the two members are further joined via a connecting member. The bolts for integrating the shaft fixing part 110 are tightened.

このようにボルトを増し締めすることによって、分割された第1の軸固定部110の内壁傾斜面110dがより強固に絞られるようになる。このため、当該第1の軸固定部110の内壁傾斜面110dに外壁傾斜面面120cが当接する第2の軸固定部120の軸孔部120dが更に絞られて、撹拌翼10をより強固に回転軸2の所望の高さ位置により確実に固定することができる。   By tightening the bolts in this way, the divided inner wall inclined surface 110d of the first shaft fixing portion 110 is more tightly squeezed. For this reason, the shaft hole portion 120d of the second shaft fixing portion 120 where the outer wall inclined surface 120c abuts on the inner wall inclined surface 110d of the first shaft fixing portion 110 is further narrowed to make the stirring blade 10 stronger. The rotating shaft 2 can be reliably fixed by a desired height position.

また、本実施形態では、前述したように、回転軸2の上方から撹拌翼10、第1の軸固定部110、第2の軸固定部120の順に組み立てることにより、撹拌翼10は、自重で第1の軸固定部110側に押し付けられるので、同様に撹拌翼10の突起部13も溝部111に押し付けられて嵌合される。このため、撹拌翼10が回転軸2から外れることや、空転するリスクが低減される。なお、撹拌翼10、第1の軸固定部110、及び第2の軸固定部120の材質として、鋼材、ライニングを施した鋼材、チタン材、耐食性のオーステナイト系ステンレス材等を使用することができる。   Further, in the present embodiment, as described above, by assembling the stirring blade 10, the first shaft fixing portion 110, and the second shaft fixing portion 120 in this order from above the rotating shaft 2, the stirring blade 10 has its own weight. Since it is pressed toward the first shaft fixing portion 110 side, similarly, the protrusion 13 of the stirring blade 10 is also pressed against and fitted into the groove 111. For this reason, the risk that the agitating blade 10 is detached from the rotating shaft 2 and idling is reduced. In addition, as a material of the stirring blade 10, the first shaft fixing portion 110, and the second shaft fixing portion 120, a steel material, a lining steel material, a titanium material, a corrosion-resistant austenitic stainless material, or the like can be used. .

さらに、本実施形態では、前述したように、撹拌翼10、第1の軸固定部110、及び第2の軸固定部120は、2つに分割可能な構成であり、撹拌翼10と第1の軸固定部110の分割面が互いに直交し、かつ、第1の軸固定部110と第2の軸固定部120の分割面が互いに直交するように、回転軸2に取り付けられている。このように、撹拌翼10、第1の軸固定部110、及び第2の軸固定部120の分割面がそれぞれ互いに直交するように、取り付けることによって、これら撹拌翼10、第1の軸固定部110、及び第2の軸固定部120を回転軸2に取り付ける際に加わる圧力を分散させることができる。   Furthermore, in the present embodiment, as described above, the stirring blade 10, the first shaft fixing portion 110, and the second shaft fixing portion 120 are configured to be divided into two, and the stirring blade 10 and the first shaft fixing portion 120 are divided into two. Are attached to the rotary shaft 2 such that the split surfaces of the shaft fixing portion 110 are orthogonal to each other and the split surfaces of the first shaft fixing portion 110 and the second shaft fixing portion 120 are orthogonal to each other. In this way, the agitating blade 10, the first shaft fixing portion 110, and the second shaft fixing portion 120 are attached so that the divided surfaces thereof are orthogonal to each other. 110 and the pressure applied when the second shaft fixing portion 120 is attached to the rotating shaft 2 can be dispersed.

上述したように、本発明の一実施形態に係る撹拌翼固定方法は、撹拌翼10を回転軸2に取付ける際に、溶接することなく、回転軸2にキー溝を施さず、撹拌翼10の空転や脱落が無く取り付けられ、しかも、回転軸2への撹拌翼10の取付け位置を所望の高さ位置に変えられるので、その工業的価値は極めて大きい。   As described above, in the stirring blade fixing method according to an embodiment of the present invention, when the stirring blade 10 is attached to the rotating shaft 2, the rotating shaft 2 is not welded, and the rotating shaft 2 is not keyed. Since it can be mounted without idling or dropping, and the mounting position of the stirring blade 10 on the rotating shaft 2 can be changed to a desired height position, its industrial value is extremely large.

次に、本発明の一実施形態に係る撹拌翼固定構造及び撹拌翼固定方法について実施例により詳しく説明する。なお、本発明は、これらの実施例に限定されるものではない。   Next, the stirring blade fixing structure and the stirring blade fixing method according to one embodiment of the present invention will be described in detail with reference to examples. The present invention is not limited to these examples.

本発明の一実施形態に係る撹拌翼固定構造及び撹拌翼固定方法に係る試験条件として、本発明の一実施形態に係る撹拌翼固定構造を適用した実施例と、当該撹拌翼固定構造を適用しない比較例を所定の期間、操業させた後における撹拌翼の不具合の有無をモーター負荷の変動に基づいて確認した。   As test conditions for the stirring blade fixing structure and the stirring blade fixing method according to one embodiment of the present invention, an example in which the stirring blade fixing structure according to one embodiment of the present invention is applied, and the stirring blade fixing structure is not applied. The comparative example was checked based on the fluctuation of the motor load for the presence or absence of problems with the stirring blades after operating for a predetermined period.

実施例及び比較例において、撹拌翼、第1の軸固定部、及び第2の軸固定部は、それぞれ2分割のタイプのものを使用し、回転軸の径が154.4mm(150.0mmφの鋼棒に腐食防止のためのライニング溶射材料であるサーフェロイの厚みが1mm以上)のものを共通して使用した。一方、比較例では、第1の軸固定部の内壁面がテーパーの無い部材を使用し、回転軸への固定は、第1の軸固定部を一体化するためのボルト締めで兼用して、第2の軸固定部を使用しなかった。   In the examples and comparative examples, the stirring blade, the first shaft fixing portion, and the second shaft fixing portion are each divided into two types, and the rotating shaft has a diameter of 154.4 mm (150.0 mmφ). A steel rod having a thickness of 1 mm or more of surferloy, which is a lining sprayed material for preventing corrosion, was commonly used. On the other hand, in the comparative example, the inner wall surface of the first shaft fixing portion uses a member without a taper, and the fixing to the rotating shaft is also used by bolting for integrating the first shaft fixing portion, The second shaft fixing part was not used.

実施例では、本発明の一実施形態に係る撹拌翼固定構造を適用した撹拌装置を使用して、溶融撹拌槽で18カ月操業したが、撹拌翼の脱落、空転等の不具合は、特に観察されなかった。これに対して、比較例では、本発明の一実施形態に係る撹拌翼固定構造を適用せずに、溶融撹拌槽で操業したが、1カ月後にモーターの負荷が急激に低下し、撹拌翼の脱落あるいは空転の兆候が観察された。このため、操業を停止し、撹拌翼を確認したところ、撹拌翼が所定の位置から脱落していた。これらの実施例及び比較例から、本発明の一実施形態に係る撹拌翼固定構造を用いて撹拌翼を回転軸に固定することによって、撹拌翼の脱落、空転等の不具合を解消されることが分かった。   In the examples, the stirring device to which the stirring blade fixing structure according to one embodiment of the present invention was applied was used for 18 months in the melt stirring tank. However, problems such as dropping of the stirring blade and idling were particularly observed. There wasn't. On the other hand, in the comparative example, the operation was performed in the melt stirring tank without applying the stirring blade fixing structure according to the embodiment of the present invention. Signs of dropout or slipping were observed. For this reason, when the operation was stopped and the stirring blade was confirmed, the stirring blade was dropped from a predetermined position. From these examples and comparative examples, by fixing the stirring blade to the rotating shaft using the stirring blade fixing structure according to one embodiment of the present invention, problems such as dropping of the stirring blade and idling can be eliminated. I understood.

なお、上記のように本発明の各実施形態及び各実施例について詳細に説明したが、本発明の新規事項及び効果から実体的に逸脱しない多くの変形が可能であることは、当業者には、容易に理解できるであろう。従って、このような変形例は、全て本発明の範囲に含まれるものとする。   Although the embodiments and examples of the present invention have been described in detail as described above, it will be understood by those skilled in the art that many modifications can be made without departing from the novel matters and effects of the present invention. It will be easy to understand. Therefore, all such modifications are included in the scope of the present invention.

例えば、明細書又は図面において、少なくとも一度、より広義又は同義な異なる用語と共に記載された用語は、明細書又は図面のいかなる箇所においても、その異なる用語に置き換えることができる。また、撹拌翼及び撹拌翼固定構造の構成、動作も本発明の各実施形態及び各実施例で説明したものに限定されず、種々の変形実施が可能である。   For example, a term described with a different term having a broader meaning or the same meaning at least once in the specification or the drawings can be replaced with the different term in any part of the specification or the drawings. The configuration and operation of the stirring blade and the stirring blade fixing structure are not limited to those described in the embodiments and examples of the present invention, and various modifications can be made.

1 混合撹拌層、2 回転軸、3 モーター、4 溶融層、10 撹拌翼、11 ボス部、11c 外周面、12 撹拌羽根部、13 突起部、14 ボルト(連結部材)、15 ナット(連結部材)、16 仮止め用ボルト、17 座金、17a 係止部、100 撹拌翼固定構造、110 第1の軸固定部、110a (第1の軸固定部の)頂部、110b (第1の軸固定部の)底面、110c (第1の軸固定部の)外周面、110d 内壁傾斜面、111 溝部、112 フランジ部、113 ボルト(連結部材)、114 ナット(連結部材)、115 仮止め用ボルト、116 雌ねじ孔、117 座金、117a 係止部、120 第2の軸固定部、120a (第2の軸固定部の)頂部、120b (第2の軸固定部の)底面、120c 外壁傾斜面、120d 軸孔部、121 フランジ部、122 ボルト(連結部材)、123 ナット(連結部材)、124 ボルト孔、125 ナット(連結部材)、S11 撹拌翼を回転軸に固定する工程、S12 第1の軸固定部を回転軸に取り付ける工程、S13 第2の軸固定部を回転軸に取り付ける工程、S14 第1の軸固定部と第2の軸固定部を接合する工程、S15 第1の軸固定部の連結部材による接合強度を増大させる工程 DESCRIPTION OF SYMBOLS 1 Mixed stirring layer, 2 Rotating shaft, 3 Motor, 4 Molten layer, 10 Stirring blade, 11 Boss part, 11c Outer peripheral surface, 12 Stirring blade part, 13 Projection part, 14 Bolt (connection member), 15 Nut (connection member) , 16 Temporary fixing bolt, 17 Washer, 17a Locking portion, 100 Stirring blade fixing structure, 110 First shaft fixing portion, 110a Top portion of first shaft fixing portion, 110b (First shaft fixing portion) ) Bottom surface, 110c outer peripheral surface (of the first shaft fixing portion), 110d inner wall inclined surface, 111 groove portion, 112 flange portion, 113 bolt (connection member), 114 nut (connection member), 115 temporary fixing bolt, 116 female thread Hole, 117 washer, 117a locking portion, 120 second shaft fixing portion, 120a top of second shaft fixing portion, 120b bottom surface of second shaft fixing portion, 120c inclination of outer wall Slope, 120d shaft hole, 121 flange, 122 bolt (connection member), 123 nut (connection member), 124 bolt hole, 125 nut (connection member), S11 step of fixing the stirring blade to the rotating shaft, S12 first The step of attaching the shaft fixing portion to the rotating shaft, the step of attaching the second shaft fixing portion to the rotating shaft, the step of joining the first shaft fixing portion and the second shaft fixing portion, and S15 the first shaft fixing. For increasing the joint strength by the connecting member

Claims (7)

ボス部の外周面に撹拌羽根部が立設される撹拌翼を回転軸に取り付ける撹拌翼固定構造であって、
前記ボス部の前記外周面に少なくとも1つ設けられる突起部に嵌合可能な溝部が頂部側に形成され、該突起部と該溝部を嵌合させて前記撹拌翼を支持しながら固定する第1の軸固定部と、
前記回転軸の外径と略同一の内径を有する軸孔部が該回転軸に嵌合可能に構成され、前記第1の軸固定部を底面側から支持しながら該第1の軸固定部を介して前記撹拌翼を前記回転軸に固定する第2の軸固定部と、を備え、
前記第1の軸固定部の内周面側には、頂部側に向けて縮径するように形成される内壁傾斜面が設けられ、
前記第2の軸固定部の外周面側には、頂部側に向けて縮径するように形成されて前記内壁傾斜面と当接する外壁傾斜面と、該外壁傾斜面の下端側から外向きに延在するフランジ部が設けられ、
前記第1の軸固定部の底面と前記フランジ部は、該底面と該フランジ部との距離を調整可能な連結部材を介して接合されることを特徴とする撹拌翼固定構造。
A stirring blade fixing structure that attaches a stirring blade with a stirring blade portion standing on the outer peripheral surface of the boss portion to a rotating shaft,
A groove portion that can be fitted to at least one protrusion portion provided on the outer peripheral surface of the boss portion is formed on the top side, and the protrusion portion and the groove portion are fitted and fixed while supporting the stirring blade. The shaft fixing part of
A shaft hole portion having an inner diameter substantially the same as the outer diameter of the rotating shaft is configured to be fitted to the rotating shaft, and the first shaft fixing portion is supported while supporting the first shaft fixing portion from the bottom surface side. A second shaft fixing portion for fixing the stirring blade to the rotating shaft via,
On the inner peripheral surface side of the first shaft fixing portion, an inner wall inclined surface formed so as to be reduced in diameter toward the top side is provided,
On the outer peripheral surface side of the second shaft fixing portion, an outer wall inclined surface that is formed so as to reduce in diameter toward the top side and abuts against the inner wall inclined surface, and outward from the lower end side of the outer wall inclined surface An extended flange is provided,
A stirring blade fixing structure, wherein the bottom surface of the first shaft fixing portion and the flange portion are joined via a connecting member capable of adjusting a distance between the bottom surface and the flange portion.
前記第2の軸固定部の前記フランジ部には、ボルト孔が設けられ、
前記第1の軸固定部の前記底面には、前記ボルト孔に対向する位置に雌ねじ孔が設けられ、
前記連結部材となるボルト及びナットを介して、前記第1の軸固定部の前記底面に設けられる前記雌ねじ孔と前記第2の軸固定部の前記フランジ部の前記ボルト孔を連結して、前記底面と前記フランジ部との距離を調整しながら、前記第1の軸固定部と前記第2の軸固定部を接合することを特徴とする請求項1に記載の撹拌翼固定構造。
A bolt hole is provided in the flange portion of the second shaft fixing portion,
On the bottom surface of the first shaft fixing portion, a female screw hole is provided at a position facing the bolt hole,
By connecting the female screw hole provided on the bottom surface of the first shaft fixing portion and the bolt hole of the flange portion of the second shaft fixing portion via bolts and nuts serving as the connecting member, The stirring blade fixing structure according to claim 1, wherein the first shaft fixing portion and the second shaft fixing portion are joined while adjusting a distance between a bottom surface and the flange portion.
前記内壁傾斜面の傾斜角と前記外壁傾斜面の傾斜角は、略同一の大きさであり、かつ、前記外壁傾斜面の長さは、少なくとも前記内壁傾斜面の長さ以上であることを特徴とする請求項1又は2に記載の撹拌翼固定構造。   The inclination angle of the inner wall inclined surface and the inclination angle of the outer wall inclined surface are substantially the same size, and the length of the outer wall inclined surface is at least longer than the length of the inner wall inclined surface. The stirring blade fixing structure according to claim 1 or 2. 前記ボス部は、前記回転軸の中心線を含み、前記突起部の重心を通過する面で2つに分割され、連結部材を介して前記突起部が接合されることを特徴とする請求項1乃至3の何れか1項に記載の撹拌翼固定構造。   The boss portion includes a center line of the rotating shaft, is divided into two at a surface passing through the center of gravity of the protrusion, and the protrusion is joined via a connecting member. 4. The stirring blade fixing structure according to any one of items 1 to 3. 前記第1の軸固定部及び前記第2の軸固定部の少なくとも何れか一方は、前記回転軸の中心線を含む面で2つに分割され、連結部材を介して接合可能な構成となっていることを特徴とする請求項1乃至4の何れか1項に記載の撹拌翼固定構造。   At least one of the first shaft fixing portion and the second shaft fixing portion is divided into two at a plane including the center line of the rotating shaft, and can be joined via a connecting member. The stirring blade fixing structure according to any one of claims 1 to 4, wherein the stirring blade fixing structure is provided. ボス部の外周面に撹拌羽根部が立設される撹拌翼を回転軸に取り付ける撹拌翼固定方法であって、
前記ボス部を前記回転軸に取り付けて、該回転軸の所定の位置に前記ボス部を介して前記撹拌翼を仮固定する工程と、
前記ボス部の前記外周面に少なくとも1つ設けられる突起部に嵌合可能な溝部が頂部側に形成され、かつ、頂部側に向けて縮径するように形成される内壁傾斜面が内周面側に設けられる第1の軸固定部を前記回転軸に取り付けて、前記溝部を前記突起部と嵌合させて該第1の軸固定部で前記撹拌翼を支持しながら固定する工程と、
前記回転軸の外径と略同一の内径を有する軸孔部が該回転軸に嵌合可能に構成され、かつ、頂部側に向けて縮径するように形成されて前記内壁傾斜面と当接する外壁傾斜面が外周面側に設けられる第2の軸固定部を前記回転軸に取り付けて、前記内壁傾斜面と前記外壁傾斜面とを嵌合させて前記第1の軸固定部を底面側から支持しながら該第1の軸固定部を介して前記撹拌翼を前記回転軸に固定する工程と、
前記第2の軸固定部の前記外壁傾斜面の下端側から外向きに延在するフランジ部と前記第1の軸固定部の底面との距離を調整可能な連結部材を介して接合する工程と、を含むことを特徴とする撹拌翼固定方法。
A stirring blade fixing method for attaching a stirring blade having a stirring blade portion standing on the outer peripheral surface of a boss portion to a rotating shaft,
Attaching the boss part to the rotating shaft, and temporarily fixing the stirring blade to the predetermined position of the rotating shaft via the boss part;
A groove portion that can be fitted to a protrusion provided on at least one of the outer peripheral surfaces of the boss portion is formed on the top side, and an inner wall inclined surface formed so as to reduce the diameter toward the top side is an inner peripheral surface. Attaching the first shaft fixing portion provided on the side to the rotary shaft, fitting the groove portion with the protrusion, and fixing the stirring blade with the first shaft fixing portion;
A shaft hole portion having an inner diameter substantially the same as the outer diameter of the rotating shaft is configured to be fitted to the rotating shaft, and is formed so as to be reduced in diameter toward the top side, and comes into contact with the inclined surface of the inner wall. A second shaft fixing portion having an outer wall inclined surface provided on the outer peripheral surface side is attached to the rotating shaft, and the inner wall inclined surface and the outer wall inclined surface are fitted to each other so that the first shaft fixing portion is moved from the bottom surface side. Fixing the stirring blade to the rotating shaft through the first shaft fixing portion while supporting,
A step of joining via a connecting member capable of adjusting a distance between a flange portion extending outward from a lower end side of the outer wall inclined surface of the second shaft fixing portion and a bottom surface of the first shaft fixing portion; The stirring blade fixing method characterized by including.
前記第1の軸固定部は、前記回転軸の中心線を含む面で2つに分割され、連結部材を介して接合可能な構成となっており、
前記第2の軸固定部の前記フランジ部と前記第1の軸固定部の前記底面とを前記連結部材を介して接合した後に、前記第1の軸固定部の前記連結部材による接合強度を増大させる工程を更に含むことを特徴とする請求項6に記載の撹拌翼固定方法。
The first shaft fixing portion is divided into two on the surface including the center line of the rotating shaft, and is configured to be joined via a connecting member,
After joining the flange portion of the second shaft fixing portion and the bottom surface of the first shaft fixing portion via the connecting member, the joining strength of the first shaft fixing portion by the connecting member is increased. The stirring blade fixing method according to claim 6, further comprising a step of causing the stirring blade to be fixed.
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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5957800U (en) * 1982-10-07 1984-04-14 日本鋼管株式会社 Stirring device for metal melting furnace
JPS61200131U (en) * 1985-05-31 1986-12-15
JPH0286636U (en) * 1988-12-21 1990-07-09
JPH049641U (en) * 1990-05-11 1992-01-28
JPH0544227U (en) * 1991-11-15 1993-06-15 株式会社日立製作所 Stirrer mounting structure

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS5957800U (en) * 1982-10-07 1984-04-14 日本鋼管株式会社 Stirring device for metal melting furnace
JPS61200131U (en) * 1985-05-31 1986-12-15
JPH0286636U (en) * 1988-12-21 1990-07-09
JPH049641U (en) * 1990-05-11 1992-01-28
JPH0544227U (en) * 1991-11-15 1993-06-15 株式会社日立製作所 Stirrer mounting structure

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